Search results for "SELF-RENEWAL"

showing 10 items of 14 documents

Telomerase and pluripotency factors jointly regulate stemness in pancreatic cancer stem cells

2021

© 2021 by the authors.

0301 basic medicineHomeobox protein NANOGCancer ResearchTelomerasePancreatic neoplasmsMedicinaBiologyStammzelleArticle03 medical and health sciences0302 clinical medicineSOX2Cancer stem cellPancreatic cancermedicineddc:610BauchspeicheldrüsenkrebsStemnessTelomeraseRC254-282Telomere lengthPancreas; CancerCancer stem cellsNeoplastic stem cellsCancer stem cells; Pancreatic cancer; Self-renewal; Stemness; Telomerase; Telomere lengthNeoplasms. Tumors. Oncology. Including cancer and carcinogensPancreatic cancermedicine.disease3. Good healthTelomere030104 developmental biologyOncologyKLF4030220 oncology & carcinogenesisCancer researchSelf-renewalStem cellDDC 610 / Medicine & health
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Adult Neurogenesis Is Sustained by Symmetric Self-Renewal and Differentiation

2018

Somatic stem cells have been identified in multiple adult tissues. Whether self-renewal occurs symmetrically or asymmetrically is key to understanding long-term stem cell maintenance and generation of progeny for cell replacement. In the adult mouse brain, neural stem cells (NSCs) (B1 cells) are retained in the walls of the lateral ventricles (ventricular-subventricular zone [V-SVZ]). The mechanism of B1 cell retention into adulthood for lifelong neurogenesis is unknown. Using multiple clonal labeling techniques, we show that the vast majority of B1 cells divide symmetrically. Whereas 20%-30% symmetrically self-renew and can remain in the niche for several months before generating neurons, …

0301 basic medicineTime FactorsNeurogenesis1.1 Normal biological development and functioningCellventricular-subventricular zoneMice TransgenicCell Counttime-lapse imagingSelf renewalBiologyself-renewalRegenerative MedicineMedical and Health SciencesTransgenicMice03 medical and health sciencesLateral ventricleslineage tracingNeural Stem CellsInterneuronsUnderpinning researchGeneticsmedicineAnimalsHumansCell Self RenewalB1 cellsagingdivision modeNeurogenesisNeurosciencesCell DifferentiationCell BiologyBiological SciencesStem Cell ResearchNeural stem cellCell biologysymmetric divisionB-1 cell030104 developmental biologymedicine.anatomical_structureNeurologicalMolecular MedicineStem Cell Research - Nonembryonic - Non-HumanStem cellDevelopmental BiologyAdult stem cell
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Non-coding RNAs Functioning in Colorectal Cancer Stem Cells

2016

In recent years, the hypothesis of the presence of tumor-initiating cancer stem cells (CSCs) has received a considerable support. This model suggested the existence of CSCs which, thanks to their self-renewal properties, are able to drive the expansion and the maintenance of malignant cell populations with invasive and metastatic potential in cancer. Increasing evidence showed the ability of such cells to acquire self-renewal, multipotency, angiogenic potential, immune evasion, symmetrical and asymmetrical divisions which, along with the presence of several DNA repair mechanisms, further enhance their oncogenic potential making them highly resistant to common anticancer treatments. The main…

0301 basic medicinemedicine.disease_cause03 medical and health sciences0302 clinical medicineCancer stem cellEpithelialmesenchymal transitionmicroRNAmedicineEpithelial–mesenchymal transitionSonic hedgehogNon-coding RNACancer stem cells; Colorectal cancer; Differentiation; Epithelialmesenchymal transition; MicroRNAs; Non-coding RNAs; Self-renewal; Signaling pathways; Stemness; Tumorigenicity; Medicine (all); Biochemistry Genetics and Molecular Biology (all)TumorigenicityStemneBiochemistry Genetics and Molecular Biology (all)biologySignaling pathwayCancer stem cellMedicine (all)Wnt signaling pathwayCancerMicroRNAmedicine.diseaseColorectal cancerCell biology030104 developmental biologyDifferentiation030220 oncology & carcinogenesisbiology.proteinSelf-renewalStem cellCarcinogenesis
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Intercellular Communication in Skeletal Muscle Stem Cell Niche: Focus on extracellular vesicles and secreted signals

AlixS-palmitoylationmuscleexosome; Alix; S-palmitoylation; muscle; self-renewal; intercellular communication;intercellular communicationexosomeself-renewal
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Bmi1 and Cell of Origin Determinants of Brain Tumor Phenotype

2007

Glioblastomas frequently express oncogenic EGFR and loss of the Ink4a/Arf locus. Bmi1, a positive regulator of stem cell self renewal, may be critical to drive brain tumor growth. In this issue of Cancer Cell, Bruggeman and colleagues suggest that brain tumors with these molecular alterations can be initiated in both neural precursor and differentiated cell compartments in the absence of Bmi1; however, tumorigenicity is reduced, and tumors contain fewer precursor cells. Surprisingly, tumors appear less malignant when initiated in precursor cells. Bmi1-deficient tumors also had fewer neuronal lineage cells, suggesting a role for Bmi1 in determination of cell lineage and tumor phenotype.

Cancer ResearchTime FactorsCell of originCellular differentiationBrain tumormacromolecular substancesBiologyMiceProto-Oncogene ProteinsPrecursor cellmedicineAnimalsHumansCyclin-Dependent Kinase Inhibitor p16Cell ProliferationNeoplasm StagingMice KnockoutNeuronsPolycomb Repressive Complex 1Brain NeoplasmsCell growthStem CellsNuclear ProteinsCell DifferentiationNeoplasms ExperimentalCell Biologymedicine.diseaseStem Cell Self-RenewalErbB ReceptorsGene Expression Regulation NeoplasticRepressor ProteinsCell Transformation NeoplasticPhenotypeOncologyBMI1AstrocytesMutationCancer cellCancer researchGlioblastomaSignal TransductionCancer Cell
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Isolation and characterization of Oct-4+/HLA-G+ mesenchymal stem cells from human umbilical cord matrix: differentiation potential and detection of n…

2008

The presence of multipotent cells in several adult and embryo-related tissues opened new paths for their use in regenerative medicine. Extraembryonic tissues such as umbilical cord are considered a promising source of stem cells, potentially useful in therapy. The characterization of cells from the umbilical cord matrix (Wharton''s Jelly) and amniotic membrane revealed the presence of a population of mesenchymal-like cells, sharing a set of core-markers expressed by "mesenchymal stem cells". Several reports enlightened the differentiation capabilities of these cells, even if at times the lack of an extensive characterization of surface markers and immune co-stimulators expression revealed h…

HistologyCell Culture TechniquesClinical uses of mesenchymal stem cellsCell SeparationBiologyUmbilical CordHLA AntigensHumansAmnionMolecular BiologyCell ProliferationStem cell transplantation for articular cartilage repairHLA-G AntigensSettore BIO/16 - Anatomia UmanaMultipotent Stem CellsHistocompatibility Antigens Class IMesenchymal stem cellCell DifferentiationMesenchymal Stem CellsAmniotic stem cellsCell BiologyTelomereCord liningCell biologyMedical Laboratory TechnologyMesenchymal stem cells Umbilical cord matrix Differentiation protocols Tolerogenic properties Self-renewal markersAmniotic epithelial cellsImmunologyStem cellOctamer Transcription Factor-3BiomarkersAdult stem cellHistochemistry and Cell Biology
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Human osteosarcoma 3AB-OS cancer stem cells is a model to study microRNA-29b-1 involvement in self-renewal and fate decisions of stem cells

2014

Human osteosarcoma 3AB-OS cancer stem cells microRNA-29b-1 self-renewal
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Neurovascular EGFL7 regulates adult neurogenesis in the subventricular zone and thereby affects olfactory perception

2016

Adult neural stem cells reside in a specialized niche in the subventricular zone (SVZ). Throughout life they give rise to adult-born neurons in the olfactory bulb (OB), thus contributing to neural plasticity and pattern discrimination. Here, we show that the neurovascular protein EGFL7 is secreted by endothelial cells and neural stem cells (NSCs) of the SVZ to shape the vascular stem-cell niche. Loss of EGFL7 causes an accumulation of activated NSCs, which display enhanced activity and re-entry into the cell cycle. EGFL7 pushes activated NSCs towards quiescence and neuronal progeny towards differentiation. This is achieved by promoting Dll4-induced Notch signalling at the blood vessel-stem …

Male0301 basic medicineGeneral Physics and AstronomyNEURAL STEM-CELLSMOUSEMiceSUBEPENDYMAL ZONENeural Stem CellsLateral VentriclesLINEAGE PROGRESSIONBRAININ-VIVOMice KnockoutNeuronal PlasticityMultidisciplinaryCell CycleQNeurogenesisNICHEAnatomyNeural stem cellCell biologyAdult Stem Cellsmedicine.anatomical_structureSignal TransductionSTIMULATES NEUROGENESISEGF Family of ProteinsNeurogenesisScienceNotch signaling pathwaySubventricular zoneBiologyInhibitory postsynaptic potentialArticleGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesNeuroplasticitymedicineBiological neural networkAnimalsCalcium-Binding ProteinsProteinsGeneral ChemistryOlfactory PerceptionENDOTHELIAL-CELLSnervous system diseasesOlfactory bulbMice Inbred C57BLSELF-RENEWAL030104 developmental biologynervous system
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MicroRNA-29b-1 is involved in self-renewal and fate decisions of human osteosarcoma 3AB-OS cancer stem cells

2014

Emerging evidence suggests that treatments targeting cancer stem cells (CSCs) within a tumor can halt cancer and improve patient survival. Moreover, identification of CSC-related MicroRNAs (miRNAs) would provide information for a better understanding of CSCs. miR-29 family is a class of miRNAs aberrantly expressed in multiple cancers. They are frequently down-regulated in osteosarcoma (OS), the most common form of childhood cancer with a potent metastasizing potential. 3AB-OS CSC, a human pluripotent CSC line by us produced from the human osteosarcoma MG63 cells (1) is a useful model to study CSC origin and roles (2). Previously, we have shown that in 3AB-OS CSCs miR-29b is potently down-re…

MicroRNA-29b-1 self-renewal human osteosarcoma 3AB-OS cancer stem cells
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Polycomb-like 2 Associates with PRC2 and Regulates Transcriptional Networks during Mouse Embryonic Stem Cell Self-Renewal and Differentiation

2010

SummaryPolycomb group (PcG) proteins are conserved epigenetic transcriptional repressors that control numerous developmental gene expression programs and have recently been implicated in modulating embryonic stem cell (ESC) fate. We identified the PcG protein PCL2 (polycomb-like 2) in a genome-wide screen for regulators of self-renewal and pluripotency and predicted that it would play an important role in mouse ESC-fate determination. Using multiple biochemical strategies, we provide evidence that PCL2 is a Polycomb Repressive Complex 2 (PRC2)-associated protein in mouse ESCs. Knockdown of Pcl2 in ESCs resulted in heightened self-renewal characteristics, defects in differentiation, and alte…

Pluripotent Stem CellsCellular differentiationGene regulatory networkDown-RegulationPolycomb-Group Proteinsmacromolecular substancesMethylationBiochemistryArticleCell LineHistonesSelf-RenewalMice03 medical and health sciences0302 clinical medicineEmbryonic Stem CellHistone methylationPolycomb-group proteinsGeneticsAnimalsGene Regulatory NetworksEpigeneticsInduced pluripotent stem cellEmbryonic Stem Cells030304 developmental biologyGenetics0303 health sciencesbiologyurogenital systemGene Expression ProfilingPolycomb Repressive Complex 2Cell DifferentiationCell BiologyCellular ReprogrammingSTEMCELLPRC2Embryonic stem cellRepressor ProteinsOncologyDifferentiation030220 oncology & carcinogenesisembryonic structuresbiology.proteinMolecular MedicineTranscriptional NetworkPRC2Genome-Wide Association StudyProtein BindingCell Stem Cell
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